A closing device includes a box with a hole, a roto-translating pin disposed in the hole of the box in such a way to rotate and translate from a retracted closing position to an extracted opening position; the closing device having spring means to push the roto-translating pin in the opening position, a locking device to lock the roto-translating pin in the closing position, actuation means to move the locking device, an actuator to move the actuation means; the roto-translating pin having a shoulder that protrudes externally from the roto-translating pin to be stopped against the internal wall of the box around the hole in such manner to stop the extraction travel of the roto-translating pin.

A pop-up device of a fuel door may include a fuel door configured to be rotatably provided on one side of a vehicle body to open or close a fuel inlet and have a locking portion formed on an internal side thereof, a cable housing configured to be disposed on an internal side of the fuel inlet and include a stopper connected to a cable, and a catch configured to be formed on one end portion of the cable housing and open or close the fuel door by a reciprocating movement of the pop-up rod.

A device for opening and closing a fuel tank inlet cover for a vehicle can be easily assembled without the influence of a working space. The device includes a cover provided to a cap member having a fuel tank inlet so as to rotate with respect to a hinge, a push-lift provided such that an upper end portion thereof is lifted or lowered with respect to a through hole, which is formed in a coupling rib of the cover so as to be inserted into or withdrawn from the through hole, a lock rod for moving forward or backward to one side or the other side such that the push-lift is locked or unlocked, and an actuator for enabling the lock rod to move forward or backward in one or the other direction.

A push-up device includes a case, a rod juts out from inside the case so as to adopt an advanced position, a rod biasing member biases the rod in a jutting out direction pushing the rod out from inside the case, a lock mechanism that includes a slide cam that moves together with the rod in the jutting out direction and a rotation cam that is relatively rotatable with respect to the slide cam about the axis of the rod, with the lock mechanism positioned between the case and the rod, and locking the rod in a retracted position in the case by the rotation cam engaging with the slide cam and rotating due to the rod being pressed in against biasing force of the rod biasing member, and a rotation cam biasing member that biases the rotation cam toward the jutting out direction.

An actuating mechanism for actuating a charging or fueling flap on a charging or fueling compartment received on or in a body component of a vehicle, wherein the charging or fueling flap is reversibly movable between a closed position and an open position, wherein a flap lock is provided for locking the charging or fueling flap in its closed position. The actuating mechanism includes a drive having a drive shaft, which is operatively connectable to the charging or fueling flap such that, upon rotation of the drive shaft, the charging or fueling flap is movable relative to the charging or fueling compartment. The actuating mechanism further includes a mechanical control or switching mechanism, which is configured such that, upon rotation of the drive shaft to manipulate the flap lock, a rotational movement of the drive shaft can be tapped with the aid of the mechanical control or switching mechanism.

A fuel lid opener has: a case that is mounted to an outer peripheral surface of a side wall of a lid box at which a fuel lid is pivotally supported so as to be able to open and close; a lifter that is supported at the case so as to be able to rotate around an axis that runs along a plate surface direction of the fuel lid that is in a closed state, and that has an arm portion that extends in a rotation radial direction within the lid box, and a distal end portion of the arm portion engages with the fuel lid that is in the closed state from a reverse surface side; and a heart cam mechanism that is provided within the case, and that, each time the arm portion of the lifter is push-operated in one direction around the axis via the fuel lid, causes the lifter to alternately repeat rotation in one direction and in another direction around the axis, and that pushes the fuel lid open due to rotation of the lifter in the another direction.

Provided are a seamless charging flap opening/closing device and a vehicle including the same. A charging flap cover is additionally provided with a pop-up function to also function as an opening/closing door for an air channel of an air breather, such that the charging flap cover is integrated with the air breather to be unperceivable from the outside during driving and is only opened during charging to allow a battery to be charged. The single charging flap cover is used in common by a charging flap device and the air breather maintaining independent functions. The exterior quality of a product and the efficiency of use of a package is improved, a vehicle body has a distinctive novel exterior image, and the charging flap cover is easily matched adjacently to a moving part located adjacent thereto.

The present disclosure relates to a driving assembly having a fixed gear, a fixed rack, a movable intermediate rack, a movable gear, and a transmission rack. The movable intermediate rack cooperates with the fixed gear such that the movable intermediate rack is capable of being driven to reciprocate when the fixed gear rotates clockwise and counterclockwise; the movable rotary shaft is rotatably fixed to the movable intermediate rack, and the movable gear cooperates with the fixed rack such that the movable gear is capable of reciprocatingly translating along an extension direction of the fixed rack when the movable intermediate rack reciprocates, and the movable gear is capable of rotating about the movable rotary shaft; and the transmission rack is capable of driving a member to be driven. The transmission rack cooperates with the movable gear such that the transmission rack is capable of being driven to reciprocate so as to move the member to be driven when the movable gear rotates clockwise and counterclockwise. In the driving assembly of the present disclosure, the combination of gears and racks enables the transmission rack to have a smaller size and move at a faster speed for the same movement distance.

A charging or tank door assembly of a motor vehicle, including a base body receiving a charging socket or a tank inlet, a door body pivotable about an axis of rotation and supporting a panel body on a first position, and a push-push mechanism for locking the door body and releasing the door body in the first position. In the first position, the door body closes an opening in a body of the motor vehicle and blocks access to the charging socket or to the tank inlet. In a second position, the door body releases the opening of the body of the motor vehicle and the access to the charging socket or to the tank inlet. Relative to the first position, the push-push mechanism is arranged on a different side of the axis of rotation than the first portion, supporting the panel body, of the door body.

A door assembly for a charging port of an electric vehicle includes a housing accommodating the charging port and a door connected to one side of the housing. A link bracket is mounted inside the door, and a link portion connects the housing with the link bracket. A crushing portion removes foreign materials being introduced in a slot formed at the link bracket.